Banana Peels: A Waste Treasure for Human Being

In recent years, scientists' interest in agricultural waste has increased, and the waste has become attractive to explore and benefit from, rather than being neglected waste. Banana peels have attracted the attention of researchers due to their bioactive chemical components, so we focused on this review article on the antioxidant and antimicrobial activities of banana peels that can be used as good sources of natural antioxidants and for pharmaceutical purposes in treating various diseases. Banana is an edible fruit belonging to the genus Musa (Musaceae), cultivated in tropical and subtropical regions. Banana peels are used as supplementary feed for livestock in their cultivation areas. Its massive by-products are an excellent source of high-value raw materials for other industries by recycling agricultural waste. Hence, the goal is to use banana by-products in various food and nonfood applications and sources of natural bioactive compounds. It can be concluded that banana peel can be successfully used in food, pharmaceutical, and other industries. Therefore, banana residues may provide new avenues and research areas for the future.


Introduction
Banana (Musa spp., Musaceae family) is one of the main fruit crops cultivated for its edible fruits in tropical and subtropical regions [1]. e global production of bananas is 116 million tonnes during 2019, and the banana fruits are obtained throughout the year. e fruit average is 125 grams, of which approximately 75% is water and 25% dry matter content [1]. Banana fruits vary in size and colors when ripe, from yellow, purple, and red. However, almost all culinary bananas have fruits without seeds, although wild types have fruits with many large and hard seeds [1,2]. e fruits are eaten raw, cooked, or dried and ground as flour and used in baking [1,2]. Besides, unripe or green bananas are used for cooking various dishes and producing starch [1,2]. Bananas may be easily damaged during transport to the markets, and a proportion of ripe bananas are damaged and lost [1]; banana peel and plant parts are included in animal feed [1,2].
Dessert banana, the most common and eaten, belongs to M. acuminata or hybrid Musa x paradisiaca or M. sapientum (M. acuminata x M. balbisiana) Morton [3]. e most important banana cultivar is Cavendish, which accounts for the bulk of bananas exported from the tropics and subtropics regions. Bananas are an important source of vitamin B6, vitamin C, and potassium. e world production of bananas is divided according to their use into two groups: (1) Bananas, whose ripe fruit is eaten as a dessert. It accounts for 56% of global banana production and 97% of exports [4][5][6]. (2) Bananas used in cooking include bananas and other subgroups of cultivars such as "Pisang Awak" in Asia and represent 44% of global banana production [4,5]. e ripe fruit is eaten fresh as a dessert or baked, fried, dried, or roasted. It can also be processed into vinegar, chips, or starch. e underground stem and male flowers can be eaten as a vegetable [6]. It has been estimated that 30-40% of the total banana production is rejected due to not meeting quality standards. Green fruits are easier to decompose than ripe fruits, making them wasted fruit and available to livestock [6,7]. e leaves are also used to wrap food for cooking, make clothes, and polish floors. Banana waste includes small-sized, damaged, or rotting fruit, banana peels, leaves, stems, and pseudoparts. Fresh bananas and dry bananas can be added with various crops and additives, including molasses, grass, legumes, and rice bran. Banana and banana leaves, whole pseudostalks, or stalks can be chopped fresh, fed directly, or sliced with molasses [8].

Banana Peels.
Banana peel is the outer shell (cover) of the banana fruit. It is a by-product of home consumption and the processing of bananas [6]. It is used as animal food. However, there are some concerns about the effect of tannin in the husks on the animals that consume it [9,10]. Banana peels are also used as an ingredient in cooking, water purification, the manufacture of many biochemical products, and inorganic waste production [8,11]. Banana peels are sometimes used as feedstock for livestock, goats, monkeys, poultry, rabbits, fish, zebras, and many other species [1].

Nutritional Value of Banana Peel.
e nutritional value of banana peels varies based on the cultivar and maturity stage, as the plantain peel contains less fiber than dessert banana peels, and lignin content increases with ripening (from 7 to 15% dry matter). Dried banana peels contain 6-9% protein and 20-30% fiber. Green plantain peels contain 40% starch that is transformed into sugars after ripening. Green banana peels contain much less starch (about 15%) than green plantain peels, while ripe banana peels contain up to 30% free sugars [9]. With the use of banana peels in water purification [12], it is used to produce ethanol [13], cellulase [14], and laccase (poly copper oxidase) [15] as a fertilizer [16] and in fertilization [17].

Chemical Composition of Banana Peel
It has been shown that banana peel (Musa sapientum) contains many nutrients and minerals [18]. ey found crude proteins in the amount of 1.95 ± 0.14%, crude fat 5.93 ± 0.13%, and 11.82 ± 2.17% carbohydrate in the banana peel.
e mineral composition of banana peel was phosphorus, iron, calcium, magnesium, and sodium. Zinc, copper, potassium, and manganese were found in very low concentrations as mg/100 g ( Figure 1).
However, Nagarajaiah and Prakash [19] indicated in their study lower content of iron compared to the results of Hassan et al. [18]. ey reported the highest amount of iron in three varieties of banana, namely, Pachabale (10 mg/ 100 g), Nendranbale (4 mg/100 g), and Yelakkibale (3.33 mg/ 100 g). e polyphenols were in the range of 200-850 mg equivalent of tannic acid/100 g. ey also reported the phosphorus concentration similar to Hassan et al. 2018 [18] for Yelakkibale. However, the concentration of phosphorus was lower for both Pachabale and Nendranbale, respectively. Interestingly, they showed a very high calcium concentration (244.68/100 g) in Yelakkibale, five times higher than Hussein et al. [18] mentioned, 204.80 mg/100 g in Nendranbale and 166.54 mg/100 g in Pachabale. One more interesting detail is vitamin C, tannins, phytic acid, total oxalate, and water-soluble oxalate concentrations were significantly higher in Yelakkibale than in Nendranbale and Pachabale. Vitamin C concentration was 17.83 mg/100 g in Yelakkibale and ten times lower in both Nendranbale and Pachabale, respectively. e concentration of tannin in Yelakkibale was 1073 mg/100 g, followed by 1114 mg/100 g in Nendranbale and 517 mg/100 g in Pachabale.
e chemical composition of six varieties of fruit peels of the banana and plantain was studied by Emaga et al. [20]. eir results reveal that the varieties did not consistently affect chemical constituents. However, the maturation of fruits involved an increase in soluble sugar content and, at the same time, a decrease in starch. e degradation of starch under endogenous enzymes may explain the increase in the soluble sugar content. ey attributed the degradation of starch to the action of endogenous enzymes, which may explain the increase in the soluble sugar content. ey pointed out significant quantities of amino acids such as leucine, valine, phenylalanine, and threonine. Potassium was the most important mineral element. Figure 2 shows the chemical structures of amino acids found in a banana peel: leucine, valine, phenylalanine, and threonine.
Previous reports stated that the banana peel is rich in chemical compounds as antioxidant and antimicrobial activities.

Antioxidant Activity.
Several studies have proven the antioxidant activity of banana peel for its content of active compounds. Someya et al. [22] evaluated banana peel, which showed antioxidant activity due to its gallocatechin content. Ariani and Akhmad [36] explained that the antioxidant activity originated from secondary compounds in banana peels extract, such as alkaloids, flavonoids, tannins, and saponins. Flavonoids are also powerful antioxidants that can reduce free radicals [37], as free radicals damage the tissues of organs and cause various diseases. Hence, flavonoids as antioxidants are necessary to counteract the effects of free radicals in the body [36]. Another study was conducted by Mokbel and Hashinaga [38] to study the antioxidant effects of raw extracts of green banana and yellow peel. e results revealed that the water-acetone and ethyl acetate extracts of the green peel had more excellent antioxidant activity than the water-acetone and ethyl acetate extracts of the yellow peel [38]. ese results agree with Jayaprakasha et al. [39] and Tepe et al. [40], and the highest efficiency was the aqueous acetone extract over all other extracts, followed by the ethyl acetate extracts. Sundaram et al. [41] reported that raw, mature, and very mature banana (Musa paradisiaca) peels have antioxidant activity, and raw banana peels are the most active compared to mature and very mature peels. ey   Baskar et al. [43] based their study on 9 local varieties of banana peel in Coimbatore, India. e results showed that the banana peel extract showed significant antioxidant activity. is study shows that the extract of this banana variety can be useful for treating free radical mediated diseases. Abou El-Enein et al. [44] reported that acetone extract of banana peel (Musa paradisiaca L.) showed the highest antimicrobial and antioxidant activities at 600 ppm, and phenolic profiles of banana peel acetone extract were chrysin, quercetin, and catechin. It was also proved by Ariani and Nurani [45] that the ethanolic extract of raw banana peel (Musa paradisiaca forma typical) has an extreme antioxidant activity with an IC 50 value of 4.44 ppm. Azim et al. [46] reported that the high content of phenolic and flavonoid compounds in banana peels increases the ability to act as antioxidants and remove free radicals.

Antimicrobial Activity.
Several works have been done to evaluate banana peel's phytochemical compositions and antimicrobial activities for using the waste for the treatment of microbial infection as possible alternatives to synthetic drugs due to those phytochemicals are safe without toxic side effects and environmental hazards [47,48]. e results of Lino et al. [49] found that tannins present in banana peel extract have antimicrobial activity due to their astringent action, with the ability to precipitate proteins, which may affect the bacterial peptidoglycan. So, aqueous banana extracts have an inhibitory effect on Gram-positive bacteria. In the study of Mokbel and Hashinaga [38], ethyl acetate extract of green banana peel recorded significant antimicrobial activities against Staphylococcus aureus, Bacillus subtilis, Bacillus cereus, Salmonella enteritidis, and Escherichia coli, while yellow peel extracts recorded low activity. e data indicated that malic acid exhibited solid antibacterial activity compared to β-sitosterol, succinic acid, and palmitic acid; in comparison, 12-hydroxystearic acid recorded low antimicrobial activity.
is study indicated that isolated compounds inhibited the growth of food poisoning bacteria in vivo [38].
Ehiowemwenguan et al. [50] studied the antibacterial activity of ethanolic extract and aqueous extract of banana peel. ey concluded that ethanolic extract had the least MIC value compared to the aqueous extract. Also, they found that the organic extract of banana peel contains glycosides, alkaloids, flavonoids, and tannins. In comparison, the water extract contains only glycosides and alkaloids.
Rita et al. [51] reported that the ethanol extract of Musa sapientum peel inhibited 6 bacteria species. However, Musa acuminata peel ethanol extract has antibacterial activity against E. coli, S. aureus, and P. aeruginosa [52]. Wahyuni et al. [53] reported that n-butanol extract of yellow Kepok banana peels inhibited the growth of S. aureus and E. coli with MIC of 0.5 and 0.1%, respectively, and the total flavonoid and phenolic contents were 0.06 and 0.15%. Ananta et al. [54] revealed that the peels of milk, gold (lady finger), and wood banana have antibacterial activity against E. coli and S. aureus, where lady finger was the most active. Susanah et al. [55] attributed the existence of a positive correlation between the content of flavonoids or phenolic and antibacterial activities.
Several studies showed the antimicrobial activity of banana peel. Ighodaro [56] found that banana peel extract showed inhibition against S. aureus, Escherichia coli, and Proteus mirabilis. Also, Chabuck et al. [57] concluded that banana extract showed the highest antibacterial activity against two Gram-positive (S. aureus and Streptococcus pyogenes), four Gram-negative (Enterobacter aerogenes, Klebsiella pneumoniae, E. coli, and Moraxella catarrhalis), and one yeast (Candida albicans). e in vitro study of Kapadia et al. [58] found the antibacterial activity of alcoholic extract of banana peel against Gram-negative anaerobes such as Porphyromonas gingivalis, Aggregatibacter actinomycetemcomitans, and P. gingivalis is associated with periodontal diseases, acute periodontal abscess, and failure of the regenerative procedure  Evidence-Based Complementary and Alternative Medicine [59,60]. Also, A. actinomycetemcomitans is associated with aggressive periodontitis, refractory periodontitis [59,60], and also associated with periodontitis lesion of Papillon-Lefèvre syndrome [61]. e study of Kapadia et al. [58] detected the antibacterial activity of alcoholic extract of banana peel. e results have shown a 15 mm and 12 mm inhibition zone of P. gingivalis and A. actinomycetemcomitans, respectively, due to secondary metabolites in banana peel such as flavonoids, tannins, phlobatannins, alkaloids, glycosides, and terpenoids [62,63]. e presence of secondary metabolites might be responsible for the antibacterial activity of banana peel. Kapadia et al. [58] demonstrated that 70% isopropyl alcohol had shown 8 mm and 10 mm zones of inhibition with P. gingivalis and A. actinomycetemcomitans, respectively. In comparison, the alcohol extract of banana peel has shown 15 mm and 12 mm of inhibition zones with P. gingivalis and A. actinomycetemcomitans, respectively. In MIC, 70% isopropyl alcohol has shown the least sensitivity up to 31.25 μg·mL −1 and 250 μg·mL −1 against P. gingivalis and A. actinomycetemcomitans, respectively, whereas the alcoholic extract of banana peel showed sensitivity until 31.25 μg·mL −1 against both strains. ese results supported the previous studies [38,50,57] and indicated that banana peel extract showed sensitivity against both, but it has no antibacterial activity against P. gingivalis at lower concentrations. Okorondu et al. [64] showed that the methanol extract of M. paradisiaca peels showed greater antibacterial activity than that of ethanol, water, and chloroform extracts against the human pathogenic bacteria Escherichia coli, Pseudomonas aeruginosa, Staphylococcus aureus, and Salmonella typhi. Evidence-Based Complementary and Alternative Medicine Ighodaro [56] and McDonnell and Russell [65] also found that organic solvent had higher antibacterial activity than an aqueous solution due to isopropyl alcohol being used to dissolve more active compounds from the banana peel. e study carried out by Singh et al. [66] represents a new approach. ey studied three different colors of banana peels: red, green, and yellow against various periodontal pathogens. ey found that red bananas showed a maximum zone of inhibition of 27 mm against Planococcus citri and 18 mm against S. aureus. Green banana peel showed an inhibition zone of 19 mm against Salmonella typhi and Aeromonas hydrophila. Yellow banana peel exhibited 20 mm against A. hydrophila followed by 13 mm against S. aureus. Aldean et al. [67] showed that aqueous extraction of banana peel exhibited antibacterial activity against Gram-positive and negative bacterial isolates causing gingivitis, including Streptococcus species.
Prakash et al. [68] showed that peel extracts from three banana varieties showed some phytochemicals, such as phenols, terpenoids, and saponins, and they exhibited antifungal activity against A. niger, but did not inhibit the growth of A. flavus or Penicillium spp. Also, some reports observed that gallic acid from banana peel had potential antifungal activity against four studied yeast of Candida spp. [69][70][71]. e same results were reported by Oliveira et al. [72] and Sólon et al. [73], where gallic acid had antimicrobial effects against different bacterial and fungal species. Borges et al. [74] added that ferulic acid and gallic acid had antimicrobial activity against some pathogenic bacteria. Sumathy [75] found that yellow banana fruit peel had antifungal and antimicrobial properties against different Gram-positive and negative bacteria. Lino et al. [49] concluded that banana peel inhibited the growth of enterobacteria and pyogenic bacteria. Also, Aldean et al. [67] observed that banana peel inhibited Clostridium sporogenes, as well as Bankar et al. [76] and Fapohunda et al. [77] noticed strong activity of banana peel extract against K. pneumoniae, E. aerogenes, and E. coli. Hence, Salah [78] said that bananas peel considered a good source of natural antioxidants and antibacterial, in addition to the production of natural dyes from banana peel to color cotton fabrics and protect them from bacterial effects. Table 1 provides the biologically active compounds and especially those with antioxidant and antimicrobial effects as shown in

Conclusions
One of the benefits that humans get from the work of scientists on plant waste is that the banana peel was able to draw attention as a source of functional and nutritional compounds. In this work, the focus was shed on the biological activities of banana peel as antioxidant and antimicrobial activities as a result of containing biologically active compounds. Phenolic compounds, alkaloids, flavonoids, tannins, saponins, glycosides, carotenoids, sterols, triterpenes, and catecholamines isolated from banana peels have been reported for antioxidant and antimicrobial activities. It turned out that the banana peel is very encouraging for more future research. Future studies are required to determine the biologically active compounds, potentials, and the multiple benefits hoped for banana peel instead of being a neglected waste.

Data Availability
e data used to support this study are included within the article and are available from the corresponding author upon request.   Evidence-Based Complementary and Alternative Medicine